Description
+ Include: 39 videos, size: 8.06 GB
+ Target Audience: electrophysiologists, but also open for general cardiologists and electrophysiology fellows in training
+ Sample video: contact me for sample video
+ Information:
The 7th Annual Physiology of Pacing Symposium 2023 is designed to provide clinicians with an in-depth understanding of current methods and strategies to optimize physiological pacing of the heart. This one-day symposium will focus on conduction system pacing (CSP) approaches including His-bundle Pacing (HBP), left bundle branch area pacing (LBBAP), and left ventricular septal pacing (LVSP), which are evolving pacing modalities that have the most potential to achieve electrical excitation of the heart through the normal specialized conduction system. Participants will review the history and relevant anatomy of the conduction system with regard to HBP/LBBAP/LVSP, with particular educational emphasis on tips and methods for successful implantation. The program will then serve to provide an overview of clinical applications that have been established and are currently being evaluated through clinical trials. Comparative clinical and/or surgical strategies to achieve cardiac resynchronization through leadless technology, multisite pacing, and left ventricular (LV) endocardial pacing will be highlighted as well, with emphasis of physiologic considerations.
This educational activity is designed for electrophysiologists, but also open for general cardiologists and electrophysiology fellows in training.
LEARNING OBJECTIVES
Upon completion of this activity, participants will be able to:
- Discuss the evolving role of conduction system pacing (CSP) pacing for standard permanent pacing as well as for cardiac resynchronization.
- Describe challenges and methods for implantation technique of permanent His-bundle pacing (HBP), left bundle branch area pacing (LBBAP), and left ventricular septal pacing (LVSP)
- Review the relationship between electrical stimulation of the heart with mechanics of myocardial contraction.
- Review history and recent advances of CSP and emerging clinical situations and applications in the setting of narrow and wide QRS morphology patients.
- Review the relevant anatomy of the membranous septum conduction system with relation to the right atrium, tricuspid valve, and ventricular septum.
- Summarize strategies and clinical evidence for the various approaches to achieve cardiac resynchronization including leadless technology, multisite pacing, and left ventricular (LV) endocardial pacing.
- Outline approaches to complications during implant procedures for CSP.
- Discuss approaches for remote monitoring and optimization of CSP and CRT systems.
+ Topics:
Beyond Pacing for CRT Non-Response- How do we use Barostim, cardiac contractility modulation (CCM), and AI to improve outcomes.mp4
Biventricular pacing in AV Block- Which populations derive benefit.mp4
BiVP in LBBB-What do the trials tell us and how should we deliver leads.mp4
Comparative LVAT Between Stimulation Sites-HBP, LBBAP, and LVSP.mp4
Comparing outcomes between HBP, LBBAP, and BiV in CRT-gaps in present work and questions for future trials.mp4
Complications of CSP and How to avoid them.mp4
CSP after for chronically paced patients and after AVN ablation.mp4
Debate Where do we go in future trials.mp4
Determinants of QRS Characteristics during LBBAP- Width or LVAT.mp4
Device selection for non-LBBB- What do the new HRS Guidelines Recommend.mp4
Extraction tips and tricks for CPS.mp4
HBP as for Bradycardia Pacing- First line or bailout for LBBAP.mp4
Hemodynamics of site stimulation- comparing HBP, LBBAP, and LVSP.mp4
HOT-CRT LOT-CRT and Cardiac Memory.mp4
LB Pacing- Huang 2- lead Technique and Defining Conduction System Capture.mp4
LBBAP for CRT in LBBB-Pearls for Implant Success.mp4
LBBAP for CRT.mp4
LBBAP with stylet driven leads.mp4
LBBB associated cardiomyopathy- CRT-P or CRT-D.mp4
LBBP versus LV Septal Pacing for Bradycardia Indications- Are their differences in outcomes.mp4
Methods and Maneuvers to Identify Conduction System Capture during LBBAP.mp4
New data from stylet-driven registries.mp4
New developments in Leadless Pacing.mp4
New Imaging Techniques of Conduction System Anatomy.mp4
New Tools, Stylet- Driven Leads for CSP.mp4
Noninvasive Activation Patterns in Conduction System Pacing-Comparing HBP and LBBAP.mp4
Optimizing CRT in non-LBBB Patients- Lead Targeting, QLV, and role of Adaptive Algorithms.mp4
Panel Discussion- “How best to utilize identify populations and procedures for CRT in LBBB.”.mp4
Panel Discussion- “How does pacing site impact electrical activation pattern and hemodynamics.”.mp4
Panel Discussion- “How should we approach BiV vs CSP in narrow QRS patients with AV block and normal or moderately reduced LVEF.”.mp4
Panel Discussion- “What is the best approach to manage RBB and IVCD patients.”.mp4
Pearls for Follow-Up for SCP Devices.mp4
Physiological Pacing for HFpEF.mp4
Reducing the risk of pacing induced cardiomyopathy-Choosing between BiV vs CSP for patients with advanced AV block.mp4
Remote monitoring and use of cloud-based providers for CSP.mp4
Returning to the surface ECG-Assessing Level of Block to Inform Device Selection.mp4
Thinking out of the box for HF- Sex height and LV size on selecting pacing prescription (CRT, LBBAP and CCM).mp4
UHF-ECG and patterns of activation in pacing- comparing sites of RVP and CSP.mp4
What is the role of CSP in IVCD.mp4
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